BRONIDOX L

BRONIDOX L, also known as 5-Bromo-5-nitro-1,3-dioxane, exhibits antimicrobial properties against a wide range of microorganisms including gram-negative and gram-positive bacteria, yeast, and fungi. Bronidox is commonly employed as a stabilizer and preservative in biological molecules and solutions, such as antibodies and antisera. 
BRONIDOX L finds application in rinse-off cosmetics, where it serves as a preserving agent. 
BRONIDOX L, an antimicrobial compound, is effective against Gram-positive and Gram-negative bacteria and fungi, including yeast. 

CAS Number: 30007-47-7
Molecular Formula: C4H6BrNO4
Molecular Weight: 212
EINECS Number: 250-001-7

Bronidox, or BRONIDOX L, is an antimicrobial chemical compound.
BRONIDOX L causes inhibition of enzyme activity in bacteria.
BRONIDOX L is corrosive to metals.

BRONIDOX L (and) Propylene Glycol. 
BRONIDOX L by BASF acts as a preservative. 
BRONIDOX L is suitable for use in surfactant preparations and a wide range of cosmetic rinse-off products.

BRONIDOX L is used as a stabilizer and preserving agent for biological molecules and solutions such as antibodies and antisera. 
BRONIDOX L is used in a variety of rinse-off cosmetic. It can be used alone or in combination with methylisothiazolone.
BRONIDOX L can be used alone or in combination with methylisothiazolone to enhance its effectiveness.

BRONIDOX L inhibits enzyme activity and subsequent inhibition of microbial growth by the oxidation of essential protein thiol.
BRONIDOX L, an antimicrobial agent active against bacteria, yeast and fungi, may be used as a stabilizer and preserving agent for biological molecules and solutions such as antibodies and antisera. It is used as preservative to avoid use of sodium azide.
BRONIDOX L is used as a stabilizer and preserving agent for biological molecules and solutions such as antibodies and antisera. 

BRONIDOX L is used in a variety of rinse-off cosmetic. It can be used alone or in combination with methylisothiazolone.
BRONIDOX L is a white powder. 
In cosmetics and personal care products, BRONIDOX L is used as a preservative in bath, hair and personal cleanliness products.

BRONIDOX L in a cool dry place. 
BRONIDOX L should only by used by persons trained in the safe handling of hazardous chemicals. 
BRONIDOX L thoroughly after handling. 

If workplace exposure limit(s) of BRONIDOX L or any component is exceeded (see TLV/PEL), or a risk assessment shows air-purifying respirators are appropriate, use of a NIOSH/MSHA approved air supplied respirator is advised. 
BRONIDOX L is use a full-face respirator with multipurpose combination (US) or type ABEK (EN14387) respirator cartridges in absence of proper environmental control.
Always use respirators and components tested and approved under appropriate government standards such as NIOSH (US) or CEN (EU). 

Engineering and/or administrative controls should be implemented to reduce exposure.
BRONIDOX L is used as a stabilizer and preserving agent for biological molecules and solutions such as antibodies and antisera. 
BRONIDOX L is used in a variety of rinse-off cosmetic. It can be used alone or in combination with methylisothiazolone.

BRONIDOX L is an antimicrobial compound that is effective against Gram-positive and Gram-negative bacteria and fungi, including yeast.
BRONIDOX L (Registered Tradmark of Cognis Corp) is chemical compound BRONIDOX L. 
BRONIDOX L is use on goods without license from Cognis is strictly prohibited.

BRONIDOX L is an almost colorless, transparent liquid preservative for use in surfactant preparations and a wide range of cosmetic rinse-off products. 
BRONIDOX L is stable up to 40°C and not subject to changes in preparations with a pH range of 5 to 8. 
This preservative has broad spectrum activity against bacteria and fungi. 

Due to its good compatibility with other cosmetic raw materials, BRONIDOX L can also be combined with other cosmetic preservatives.
BRONIDOX L, also known as bronidox, shows antimicrobial activity against gram-negative and gram-positive bacteria, yeast, and fungi.
BRONIDOX L is used as a stabilizer and preserving agent for biological molecules and solutions such as antibodies and antisera. 

BRONIDOX L is used in a variety of rinse-off cosmetic. 
BRONIDOX L can be used alone or in combination with methylisothiazolone.
BRONIDOX L is a chemical compound with the molecular formula C4H6BrNO4. 

BRONIDOX L is a member of the dioxane family, which consists of molecules containing a dioxane ring structure. 
The systematic name for this compound is BRONIDOX L.
Indicates the presence of a bromine atom attached to the fifth carbon atom of the dioxane ring.

Indicates the presence of a nitro group (NO2) attached to the fifth carbon atom of the dioxane ring.
Refers to the structure of the compound, which includes a dioxane ring—a six-membered ring with two oxygen atoms and four carbon atoms.
BRONIDOX L is characterized by the presence of both bromine and nitro functional groups, and it belongs to the class of organic compounds known as halogenated dioxanes. 

The specific properties and uses of BRONIDOX L would depend on its intended applications and the reactions in which it is involved.
BRONIDOX L can be used as a reagent or precursor in chemical synthesis. 
Compounds with bromine and nitro groups are often employed in organic synthesis to introduce specific functional groups or create new molecules.

BRONIDOX L containing bromine or nitro groups may exhibit biocidal or antimicrobial properties. 
These properties can be relevant in applications such as disinfectants or preservatives.
Certain halogenated BRONIDOX L is used in polymer chemistry as additives or modifiers. 

They can influence the properties of polymers, including their stability and resistance to degradation.
BRONIDOX L may be utilized in research and development, especially in laboratories where chemical synthesis and investigation of novel compounds are conducted.
BRONIDOX L with nitro or bromine substituents might have applications in pharmaceutical research. 

They could be investigated for their biological activities or potential use as building blocks in drug synthesis.
Some chemicals with bromine and nitro groups are used in the development of agrochemicals, including pesticides or herbicides.

Depending on its chemical properties, BRONIDOX L may have solvent properties that could make it suitable for certain applications in industrial processes.
In material science, certain halogenated BRONIDOX L is used in the modification of materials, influencing their physical and chemical properties.

Melting point: 58-60 °C
Boiling point: 280.8±40.0 °C(Predicted)
Density: 1.070
vapor pressure: 1.6Pa at 20℃
refractive index: 1.6200 (estimate)
storage temp.: 2-8°C
solubility: DMF: 30 mg/ml; DMSO: 30 mg/ml; DMSO:PBS(pH 7.2) (1:4): 0.2 mg/ml; Ethanol: 25 mg/ml
form: neat
color: White to Almost white
Water Solubility: Soluble in water at 12.5mg/ml
LogP: 1.6 at 23℃

BRONIDOX L is used as a stabilizer and preserving agent for biological molecules and solutions such as antibodies and antisera. 
BRONIDOX L is used in a variety of rinse-off cosmetic. 
BRONIDOX L can be used alone or in combination with methylisothiazolone.

Bronidox, or BRONIDOX L, is an antimicrobial chemical compound. 
In cosmetics and personal care products, BRONIDOX L is used as a preservative in bath, hair and personal cleanliness products. 
BRONIDOX L causes inhibition of enzyme activity in bacteria. 

BRONIDOX L functions as a preservative. 
BRONIDOX L may find use as a reagent in laboratory settings for specific chemical reactions or synthesis.
Certain halogenated compounds are used in the electronics industry, for instance, in the production of electronic chemicals, circuit boards, or as precursors for semiconductor materials.

Nitro compounds are sometimes used in the synthesis of dyes. 
Understanding the compound's reactivity can provide insights into its potential use in dye chemistry.
BRONIDOX L may be of interest in chemical research for exploring new reactions or understanding the behavior of specific functional groups.

Some bromine-containing BRONIDOX L, although not necessarily this specific one, have been historically used in photographic fixers.
The oxygen atoms in the dioxane ring could potentially act as hydrogen bond donors, influencing interactions in certain chemical processes.
BRONIDOX L is sometimes used as reference standards in gas chromatography analyses.

Depending on its properties, BRONIDOX L might be explored in biological studies, for example, in understanding its interactions with biological molecules.
BRONIDOX L with bromine and nitro groups can be used in fine chemical synthesis, contributing to the production of high-value specialty chemicals.
Some brominated BRONIDOX L serve as catalysts in industrial processes. Understanding the reactivity of the compound is crucial for assessing its potential in catalysis.

If the BRONIDOX L is related to pharmaceuticals, it might be used as a reference standard or in quality control processes.
BRONIDOX L might be explored for surface modification of materials, altering their properties for specific applications.
Researchers may use BRONIDOX L like this to study reactivity patterns of specific functional groups in chemical reactions.

BRONIDOX L prevents or retards bacterial growth, and thus protects cosmetic and personal care products from spoilage. 
BRONIDOX L is a cyclic aliphatic ether. 
BRONIDOX L is also used as a preservative in water systems, paints, cutting oils and in leather processing.

BRONIDOX L is an antimicrobial compound that is effective against Gram-positive and Gram-negative bacteria and fungi, including yeast. 
BRONIDOX L is mode of action occurs via the oxidation of essential protein thiols causing inhibition of enzyme activity and subsequent inhibition of microbial growth. 
While specific information on BRONIDOX L may not be readily available due to its potentially specialized or proprietary nature, understanding the general properties and applications of compounds with similar functional groups can provide additional insights.

The bromine and nitro groups in BRONIDOX L make it susceptible to electrophilic substitution reactions. 
Understanding these reactions is essential for its use in various chemical processes.
BRONIDOX L with halogen and nitro groups might be explored for surface functionalization, altering the properties of surfaces for specific applications.

Some brominated BRONIDOX L is used as flame retardants in various materials. 
While the specific BRONIDOX L's effectiveness in this regard would need to be assessed, bromine-containing compounds are known for their flame-retardant properties.
BRONIDOX L may find applications in analytical chemistry techniques, such as chromatography or spectroscopy, depending on its chemical properties.

BRONIDOX Ls have historically been used in photography. Although the specific compound's use in this field would require further investigation, nitro groups can be involved in light-sensitive materials.
BRONIDOX L with unique substituents like bromine and nitro groups are valuable in organic synthesis for creating diverse molecular structures.

Due to the presence of BRONIDOX L, considerations for environmental impact and safety are important. 
Brominated compounds can have environmental concerns, and understanding these aspects is crucial for responsible use.

Uses Of BRONIDOX L:
BRONIDOX L is used as a preservative in cosmetic products.
BRONIDOX L is used as a stabilizer and preserving agent for biological molecules and solutions such as antibodies and antisera. 
BRONIDOX L is used in a variety of rinse-off cosmetic. 

BRONIDOX L can be used alone or in combination with methylisothiazolone.
BRONIDOX L is a bromine containing preservative commonly used in cosmetic products.
BRONIDOX L is used as a stabilizer and preserving agent for biological molecules and solutions such as antibodies and antisera. 

BRONIDOX L is used in a variety of rinse-off cosmetic. 
BRONIDOX L can be used alone or in combination with methylisothiazolone.
BRONIDOX L is used in immunology for preserving antibodies and antisera in 0.1 - 0.5% concentration. 

BRONIDOX L is used as preservative to avoid use of sodium azide.
BRONIDOX L is used in cosmetics since the mid-1970s as preservative for shampoos, foam bath, etc. Maximum concentration is 0.1%.
BRONIDOX L is used in the following products: laboratory chemicals.

BRONIDOX L is used in the following areas: health services.
Other release to the environment of BRONIDOX L is likely to occur from: indoor use as reactive substance.
BRONIDOX L is used in the following products: laboratory chemicals, perfumes and fragrances and cosmetics and personal care products.

Release to the environment of BRONIDOX L can occur from industrial use: formulation of mixtures.
If the BRONIDOX L is stable and has suitable properties, it might be used as a reference standard in high-performance liquid chromatography.
Researchers might use brominated or nitro compounds in biochemical studies to understand their interactions with biological molecules.

Bromine-containing BRONIDOX L is sometimes used in the synthesis of specialty polymers with specific properties.
BRONIDOX L is used as foam stabilizers in industrial processes where foam control is essential.
Depending on its properties, BRONIDOX L might be explored for use in waste treatment processes, such as water treatment or soil remediation.

BRONIDOX L is often used as thermal stabilizers in various materials to enhance their resistance to heat.
BRONIDOX L can be incorporated into adhesive formulations to modify their properties.
In certain industries, BRONIDOX L might be used for treating metal surfaces, providing corrosion resistance.

If BRONIDOX L is food-grade and safe, it might find applications in the food industry, possibly as an additive or in food packaging.
BRONIDOX L are sometimes used as water treatment additives to control microbial growth.
BRONIDOX L with nitro groups can undergo reduction reactions, which may be useful in certain chemical transformations. 

BRONIDOX L can also participate in oxidation-reduction reactions.
BRONIDOX L is sometimes employed in bioconjugation chemistry, where they can be used to label biomolecules for various purposes, including diagnostic applications.

Safety Profile Of BRONIDOX L:
Nitro compounds can exhibit toxicity, and exposure to them may have harmful effects on human health. 
This includes potential effects on the respiratory and nervous systems.
BRONIDOX L may cause irritation to the skin, eyes, and respiratory tract upon contact or inhalation.

BRONIDOX L can be flammable or combustible under certain conditions, posing a fire hazard.
BRONIDOX L may be reactive and can participate in various chemical reactions. 

Some reactions may lead to the release of hazardous byproducts.
BRONIDOX L can have environmental implications, including persistence in the environment and potential bioaccumulation in organisms.

Synonyms Of BRONIDOX L:
BRONIDOX L
30007-47-7
Bronidox
1,3-Dioxane, 5-bromo-5-nitro-
5-Bromo-5-nitro-m-dioxane
m-DIOXANE, 5-BROMO-5-NITRO-
5-Brom-5-nitro-1,3-dioxan
MFCD00101855
U184I9QBNM
DTXSID1044560
EINECS 250-001-7
UNII-U184I9QBNM
5-Brom-5-nitro-1,3-dioxan [German]
BRN 4668673
Bronidox L
MICROCIDE I
SCHEMBL97282
CHEMBL3185787
DTXCID9024560
SCHEMBL17347337
XVBRCOKDZVQYAY-UHFFFAOYSA-N
Tox21_301588
AKOS015834980
AKOS040744440
CS-W015032
HY-W014316
NCGC00255969-01
AS-15941
PD053603
SY014363
BRONIDOX L, >=99%
CAS-30007-47-7
B3156
B3769
FT-0620143
BRONIDOX L [INCI]
D88989
EN300-7381687
BRONIDOX L, analytical standard
Q-200534
Q4973879